Mounting frame for portable equipment

ABSTRACT

The present invention includes a frame that is quickly and easily assembled and disassembled. The frame may be used for supporting a portable forced air heater, or other similar equipment. Handles, supports, and optionally a wheel assembly is assembled to two core members using snap lock buttons. In a preferred embodiment, the portable forced air heater includes a maintenance clock for measuring and recording operational parameters of a portable forced air heater, and for notifying a user that maintenance is required.

FIELD OF INVENTION

The present invention generally relates to improved mounting frame forportable equipment. More particularly, the present invention relates toa frame for portable forced air heaters that can be quickly and easilyassembled and a device for monitoring the conditions of an air heater.

BACKGROUND

Portable forced air heaters provide efficient temporary heating.Portable forced air heaters may be used in a variety of settings,including construction sites, agricultural buildings, industrialworkspaces, remodeling jobs, loading docks, and the like. A typicalforced air heater includes a fuel storage tank, a combustion chamber,and a blower or fan. The term “forced air” means that the blower or fanpushes air through the combustion chamber. Proper combustion of the fueldepends upon this air flow. Kerosene is a frequently preferred fuel forforced air heaters because of its ability to burn at almost 100%efficiency.

Forced air heaters may be direct fired or ventilated. In a direct firedforced air heater, all of the combustion products enter the heatedspaced. In other words, a direct fired forced air heater is notventilated. A ventilated forced air heater has an exhaust system thatremoves combustion products via a flue.

Portable forced air heaters, particularly larger units having large fuelstorage tanks, are typically supported by a tubular frame, mosttypically steel. Wheels may be provided so that a user may easilyposition the heater as desired. The tubular frames of prior art portableforced air heaters are either welded as a single unit or requireassembly. The welded single unit frames are bulky and therefore morecostly to transport. Frames requiring assembly are not preferred as theymay be difficult to assemble or may be subject to incorrect assembly.

A frame according to the present invention addresses the disadvantagesof the prior art.

Operating equipment generally requires regular maintenance and servicingin order to continue working effectively. For example, most automobileengines typically require oil changes and maintenance after set periods,such as 3000 miles or 3 months. Kerosene forced air heaters, likeautomobile engines, require regular maintenance as well. However,currently such heaters lack any means for automatically monitoring theruntime of the heater. The lack of a built in monitor requires the userto manually record and operating time and determine maintenance andservicing needs.

SUMMARY

The present invention provides a quickly and easily assembled frame thatmay be used with a portable forced air heater or similar equipment. In apreferred embodiment, the portable forced air heater includes amaintenance monitor for measuring and recording operational parametersand required service.

BRIEF DESCRIPTION OF THE DRAWINGS

A more detailed understanding of the invention may be had from thefollowing description, given by way of example and to be understood inconjunction with the accompanying drawings, wherein:

FIG. 1 is an exploded perspective view of a modular frame in accordancewith a preferred embodiment of the present invention;

FIG. 2 is a cross section illustrating the interconnecting components ofthe modular frame of FIG. 1;

FIG. 3 is a perspective view of the modular frame of FIG. 1 fullyassembled and supporting a portable forced air heater;

FIG. 4 is a cross section illustrating the interconnecting components ofthe assembled modular frame of FIG. 3;

FIG. 5 is a perspective view of a modular frame in accordance with analternative embodiment of the present invention;

FIG. 6 is a cross section illustrating an alternative interconnectionarrangement in accordance with an alternative embodiment;

FIG. 7 is a block diagram of device for measuring and recordingoperational parameters of a portable forced air heater; and

FIG. 8 is a flow diagram associated with a device for measuring andrecording operational parameters of a portable forced air heater.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In a preferred embodiment of the present invention, a modular frame isassembled and disassembled using interlocked members and snap-lockbuttons. Referring to FIGS. 1 and 2, an exploded view of the preferredmodular frame 10 is shown. A pair of core members 20 is the centralconnection point for all other components of the frame 10. Each coremember 20 preferably comprises two mating tubes 22, which are preferablyformed as female members. The two female mating tubes 22 are preferablypermanently connected to the heater as discussed below with reference toFIG. 3, but may also be removably interconnected with hardware, such asnuts and bolts. The two female mating tubes 22 are sized to secure acorresponding male mating tube 28.

Each female mating tube 22 includes apertures 24 for receiving thebiased member or button 26 of a male mating tube 28. Male mating tube 28has an outer diameter that is slightly smaller than the inner diameterof the female mating tubes 22 such that a snug fit is achieved and theparts are rigidly assembled. Preferably, the female mating tubes 22 havea ⅞″ inner diameter and the male mating tubes 28 have a 13/16″ outerdiameter, thereby providing a snug fit. The variance in the diameters ofthe mating tubes 22 and 28 may be selected to achieve a desired rigidityof the frame 10. The overall diameters and thickness of the mating tubes22 and 28 may again be selected to achieve a desired strength of theframe 10.

Preferably, two handles 30 are U-shaped and include the mating ends 28with a biased member 26 at each end which complements an aperture 24upon insertion in a female mating tube 22 of each core member 20.Referring particularly to FIG. 2, upon alignment with aperture 24, themember 26 is biased upwardly through the aperture 24 locking the malemating ends 28 in place inside the female mating tube 22. The depth ofthe overlap of the male mating ends 28 and the female mating tube 22 maybe selected as desired. However, insertion of at least one third of thelength of the male mating ends 28 into the female mating tube 22 ispreferred as providing a more rigid assembled frame 10.

It should be noted that the biasing of the member 26 may be achieved ina variety of ways which are evident to those skilled in the art. FIGS. 1and 2 show a piece of spring metal positioned inside the male matingtube 28 merely as an example, and this is not meant to limit the scopeof the present invention.

Each handle 30 is preferably angled such that a user of the frame 10 mayreceive the handles at a comfortable height. Although the handles 30 areshown in FIG. 1 as being generally the same size, this is exemplary. Thehandles 30 may be sized as desired based on the size of the forced airheater being supported, the size limitations of an anticipated operatingenvironment, or other size considerations that may arise.

A support stand 40, which is again preferably U-shaped and includes malemating tubes 28 having members 26, is inserted into the correspondingfemale mating tubes 22 of each core member 20 in the same manner asdescribed above. Two wheel supports 50, which include male mating tubes28 having members 26, complete the frame 10 when inserted into theremaining female mating tubes 22. Preferably, two wheels 52 aresupported by the wheel supports 50 individually by way of an axle 54.The axle 54 is preferably shaped to maintain the spacing between thewheel supports 50. Cap fasteners 56 secure the wheels 52 on the axle 54.Alternatively, the fasteners 56 may be replaced with cotter pins orother securing members. The axle 54 may be replaced by spindles thatpass through and abut, or are integral with, each support 50 to joineach wheel 52 to a support. Alternatively, a second support stand 40 maybe provided when a wheeled frame is not desired.

The frame 10 is preferably constructed from tubular steel, but may beconstructed from aluminum, titanium, or various other metals as desired.

FIGS. 3 and 4 show the frame 10 assembled and supporting a forced airheater 60. While the frame 10 may be removably interconnected to theheater 60 using nuts and bolts, it is preferred that the core members 20are permanently affixed to the heater 60, by way of a plurality ofweldments 68, for example. In either case, the flange 62 located on thefuel tank 64 of the forced air heater 60 acts as the attachment pointfor the core members 20.

In an alternative embodiment, referring to FIG. 5, a projecting handle70 allows an operator to maneuver the frame 10, similar to awheelbarrow. This embodiment is advantageous in that the handle 70 ispositioned away from the heater 60, and provides improved leverage. Ifdesired, the wheels 52 and handle 70 may be reversed.

In an alternative embodiment, shown in FIG. 6, core members 120 aretapered to form male mating ends 122 including a biased member 126 forsecuring a corresponding female mating tube 128. In this manner, thefemale mating tubes 128 may rest upon the flange 62 of the fuel tank 64,increasing the rigidity of the frame and providing a smooth transitionbetween the mating components. It is noted that any combination of maleand female mating tubes may be utilized as desired.

It is also noted that although the quick assembly frame of the presentinvention is described herein as supporting a portable forced airheater, it may be used for various other industrial devices that requirea portable frame that is quickly and easily assembled.

In the embodiment illustrated in FIG. 7, a monitor with an activitysensor is coupled with a timing device for measuring operating-time 300which is further coupled with a controller 150. The controller 150records the operating-time data in a memory module 130. The controller150 also records the most recent date of servicing on the memory module130. A display 140 is also provided so that a user can view theoperating-time and service history, the controller 150 accesses thememory and outputs the information onto the display 140. Finally, ameans to reset 170 the device is provided, so after servicing thedisplay can return to its normal state. By activating the resetoperation, the controller 150 adjusts the memory data to accuratelyreflect the latest servicing information. Other embodiments of thisinvention may contain additional sensors for monitoring activity inaddition to or instead of the activity sensor. Other possible sensorsinclude safety sensors designed to shut the heater off if an unsafecondition occurs or if the safety device fails. Most notable are thephotocell sensor (to stop the flow of fuel to the combustion chamber ifignition fails or combustion ceases) and a temperature limit sensor (toshut down the heater if an overheat condition occurs.)

Referring to FIG. 8, there is a flow chart of one embodiment of theinvention. When the heater is activated 180, an activity sensor 160detects the operation and notifies the controller which begins recordingthe run or operating-time of the heater 190 which is then stored in thememory 200. The memory 200 is consulted to compare the date of lastservicing with the current date and determine if service is necessary.The apparatus at the same time or sequentially will also compare theoperating-time with a predetermined value 220 and determine whetherservicing is necessary. Should either indicate that service isnecessary; the display 250 will alert the operator that service isrequired; otherwise it will operate normally 240. Possible alertsinclude a light emitting diode (LED) or a liquid crystal display (LCD)that alerts an operator of required service. Upon performingmaintenance, the reset function is engaged to reset the display whichwill also update the memory module 260 noting the new service date.Potential elements that may need regular servicing on a heater includebut are not limited to carbon rotors/vane assembly, air filters, lintfilters, spark plugs and nozzles.

In a preferred embodiment of the invention, the memory stores a table ofmaintenance or action items. The memory is scanned for potentialmaintenance issues and to check the status of each service task at eachstart up. Alternatively, the operator can manually call for a memoryscan. This feature allows the operator to know in advance aboutscheduled maintenance or service issues. An example of the types ofinformation that may be stored in the memory is displayed in Table 1.For each category of service, the memory will record the dates andelapsed operating time since the previous service, each of the items canbe reset by engaging the reset button.

TABLE 1 Elapsed Time Total Type of Since Most Running Next Action Dateof Most Recent Repair Time Scheduled Required Recent Repair (Hours)(Hours) Repair Heater  8/12 30.5 1400 11/12 Servicing Starter 9/2 121300 10/2  Replacement Carbon 4/5 23 456 5/5 Rotor/Vane Assembly AirFilter 7/4 45 700 9/4 Nozzle 9/3 6 5600 12/3 

As illustrated in the above Table 1, one item may require attentionmonthly and another may need servicing quarterly. Since the monitor isautomatically advance by use or time, the operator is not required toremember different service period or scheduled dates.

Monitoring of the operation time and time between servicing is only onepossible embodiment of the present invention. In another embodiment ofthis invention the invention would be equipped to display additionaldiagnostic information allowing a user to trouble shoot a heater that isperforming poorly. Such capabilities include but are not limited tocoupling the heater with a sensor for sensing when a heater fails toignite or burns at unusual combustion performance which would then alertthe operator that servicing or maintenance is required. In yet anotherembodiment a built-in air pressure gauge would display the air pressuresetting of the heater allowing the user to determine if the air pressuresettings is correct. Such diagnostics would assist in the troubleshooting and repair of non-routine replacement items such as motors,printed circuit boards (PCB's), fuses, transformers, etc. in addition tothe routine replacement items.

1. A quick assembly frame for an industrial implement, the framecomprising: at least one core member connected to an industrialimplement having at least one mating end; at least one projecting memberhaving at least one mating end that complements the mating end of thecore member; and at least two mating lock elements, one associated withthe core member and the other associated with the projecting member,that interconnect to lock the at least one mating end of the at leastone core member directly to the at least one mating end of the at leastone projecting member.
 2. The frame of claim 1, wherein the at least oneprojecting member includes at least one handle and at least one support.3. The frame of claim 1, wherein the mating lock elements are biased bya bent metal sheet.
 4. The frame of claim 1, wherein the mating lockelements are biased by a spring.
 5. The frame of claim 2, wherein atleast one support further comprises at least two wheels.
 6. The frame ofclaim 1, wherein the industrial implement is a portable forced airheater.
 7. The frame of claim 6, wherein the portable forced air heateris welded to the at least one core member.
 8. The frame of claim 6,wherein the portable forced air heater is connected to the at least onecore member using hardware.
 9. The frame of claim 1, wherein the atleast one core member is configured as a female mating end, and the atleast one projecting member is configured as a male mating end.
 10. Theframe of claim 1, wherein the at least one core member is configured asa male mating end, and the at least one projecting member is configuredas a female mating end.
 11. A quick assembly frame for a portable forcedair heater, the frame comprising: a core member that is connected to theheater and defines two mating ends; a first projecting member with amating end that complements one of the mating ends of the core member; asecond projecting member with a mating end that complements the othermating end of the core member; mating lock elements associated with thecore member and the first and second projecting members, thatinterconnect to lock the mating ends of the first and second projectingmembers directly to the respective mating ends of the core member.